Safe, efficient, and economical light-absorbing (photovoltaic) technology is key to developing the next generation of solar ...

Researchers at the Chinese Academy of Sciences (CAS) have achieved world-record power conversion efficiency ...

Successful wound healing relies on precisely balanced inflammation, yet how inflammatory signals are coordinated over time ...

The cell was fabricated using a new interfacial phase equilibrium strategy that suppressed uncontrollable metal ion migration. The device achieved an exceptionally high open-circuit voltage of over ...

Outpatient migration, bispecific adoption, and non-oncology trial expansion are increasing capacity pressure, making flexible ...

USDA-funded research published in the Journal of Functional Foods explores how nano-encapsulated gamma-oryzanol reduces oxidative stress in aging cell ...

Researchers developed a laser-activated hydrogel that mimics bone healing. Composed mostly of water, the biomimetic material ...

ETH researchers have developed a novel hydrogel consisting mainly of water and a polymer network. Using laser light, the researchers can very quickly solidify the hydrogel into a material with ...

Erasable electric fields written by laser light onto crystal surfaces can trap, align, and release living cells without ...

Bones broken in a skiing accident usually heal on their own. But if the break is too severe or a bone tumor needs to be removed, surgeons insert an implant that enables the bone to grow back together.

Researchers at ETH Zurich say they've developed a novel hydrogel that could be used for bone implants in the future.

Wound healing is a multistep biological process involving inflammation, tissue formation, and remodeling. While inflammation is essential for clearing debris and recruiting repair cells, excessive or ...